Dynamically generated configuration profiles based on device operating system
Disclosed are various examples for dynamically generating configuration profiles based on an operating system of a device. A computing environment can determine that a configuration profile configured for a type of the client device has not been created. If so, the computing environment can identify an operating system of the client device, determine a format for the configuration profile based on the operating system, and generating a configuration profile in accordance with the format and the operating system. The configuration profile can include a value for a setting previously defined that is common to a plurality of different operating systems.
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The present application is related in subject matter to U.S. patent application Ser. No. 15/660,990, U.S. patent application Ser. No. 15/660,998, U.S. patent application Ser. No. 15/661,000, U.S. patent application Ser. No. 15/661,001 and U.S. patent application Ser. No. 15/661,015, which is incorporated herein by reference.
BACKGROUNDWith the emergence of bring-your-own-device (BYOD) technology in the workplace, an enterprise can permit its employees to use their own devices to access enterprise data, such as email and corporate documents. However, prior to an employee using his or her own device in the workplace, the enterprise can require the employee to enroll with a management service capable of protecting enterprise data stored on a device from theft, data loss, and unauthorized access. Through an administrator console, administrators for the enterprise can oversee the operation of enrolled devices.
Particular operating systems offer device management capabilities that allow the administrators to create policies or other settings to manage the configuration of a device. For example, depending on the capabilities of an operating system, an administrator of an enterprise can remotely install applications, resources, or other data on an employee's device. Depending on the sophistication of the administrator, remotely configuring a device, or a multitude of devices with varying capabilities, can be problematic.
Many aspects of the present disclosure can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, with emphasis instead being placed upon clearly illustrating the principles of the disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
The present disclosure relates to the dynamic construction of operating system profiles for commonly defined settings. Different devices, such as smartphones, tablets, and personal computers, can have one or more of a multitude of operating systems installed thereon. For example, devices brought into a given workplace can have the Microsoft Windows®, Apple® iOS, Apple® OS X®, Android®, Ubuntu® Linux, or other operating system installed thereon. Each operating system provides varying degrees of features, capabilities, and restrictions with respect to device management. For example, one operating system can allow an administrator to remotely configure Bluetooth® functionality on a device while another operating system may restrict or not provide access to the Bluetooth® functionality. Additionally, to change a Bluetooth® setting on an Android® device, an application on the device must make an Android®-specific API call, whereas to change a Bluetooth® setting on an iOS device, an application on the device must make an iOS-specific API call.
Traditionally, to account for the differing ways to configure devices based on the various operating systems, or other hardware or software specifications, an administrator would manually create a profile for each operating system. For instance, an administrator console might include an ingestion process where an administrator provides information in a series of user interfaces, also known as a “wizard,” in which the administrator specifies settings for devices managed by the enterprise. However, at the beginning of the wizard, the administrator is required to select an operating system where any options shown throughout the wizard would be specific to the selected operating system. At the end of the wizard, a device profile is created that is specific to the selected operating system and specific to information provided in the wizard. Only the operating system selected at the beginning of the wizard would be supported for device management purposes, unless the administrator again went through each step in the wizard after having specified a different operating system.
Moreover, each operating system (or version of operating system) can have different variable names, function calls, or other parameters that must be used to configure settings on each device. Hence, due to the difference in variable names required to configure settings on those devices, a profile for one operating system can be vastly different than a profile configured for a different operating system. As the restrictions and capabilities differ for each operating system, an administrator must be aware of a multitude of differences and nuances prior to setting restrictions.
The aforementioned limitations are addressed herein by obtaining information that can be commonly applied to different operating systems and dynamically constructing profiles to configure devices for each operating system (referred to herein as “configuration profiles”). Information that can be common to different types of devices or operating systems can include, for example, wireless fidelity (Wi-Fi) settings, virtual private network (VPN) settings, email settings, or other similar information.
In one example, an enterprise can have a Wi-Fi network having an SSID named “AlphaCo Employee WiFi” with a password of “Alpha12345.” An administrator may desire to configure managed devices to store the SSID of “AlphaCo Employee WiFi” and the password of “Alpha12345,” such that, when a device enters a workplace, it automatically connects to the wireless network and the end user is not required to manually enter the settings. As can be appreciated, doing so may prevent unauthorized distribution of potentially sensitive data over a third-party network.
Previously, the administrator would be required to create a profile for iOS devices that defined wireless network and password settings using variable names specific to iOS as well as create a profile for Android® devices that defined wireless network and password settings using variable names specific to Android®. The ingestion process, where an administrator navigates wizard and provides information, would again have to be repeated and information redundantly provided until all operating systems have been accounted for. Examples described herein, however, provide for dynamically buildings profiles specific to each supported operating system without requiring an administrator to manually create different profiles for each operating system. In a wizard, an administrator may define the Wi-Fi settings, and a computing environment may automatically build a profile for each supported operating system to configure the Wi-Fi settings, or other common settings, depending on platform-specific variable names.
According to various examples described herein, a computing environment can identify a value from a field of a user interface specified by an administrator, where the field pertains to a setting common or applicable to a multitude of different operating systems. The computing environment can determine a first variable name for inclusion in a first configuration profile in association with the value based on a first operating system. For example, a variable name for a wireless network on iOS may include “WiFiMac” which is specific to the iOS operating system. Using this variable name, a profile can be generated which will be deployed to iOS devices to configure the wireless network settings.
Additionally, the computing environment can determine a second variable name for inclusion in a second configuration profile in association with the value based at least in part on a second, different operating system. For instance, the “WiFi_iOS” variable name would not successfully configure a wireless network on an Android® or a Windows® device. Instead, a second profile can be generated using the “WiFi_Android” variable name for deployment to Android® devices as the “WiFi_Android” variable name must be used to successfully configure Android® devices.
The computing environment can dynamically generate both the first configuration profile and the second configuration profile using the appropriate variable names such that the value provided by an administrator is a value or parameter of the first variable name for deployment to a first client device having the first operating system installed thereon and a second client device having the second operating system installed thereon. An administrator is thus not required to create two different profiles for each operating system as the creation of the profiles and the mapping of variables names to a particular operating system are handled dynamically. The computing environment can publish the deployment configuration for at least one user group, thereby causing the client devices to automatically implement or install the profiles on the client devices currently enrolled with the management service, or at a time when a client device newly enrolls with the management service. If a user is part of more than one user group, any duplicate client applications, resources, or other data can be ignored and, if conflicting policies exist among the different user groups, then the more restrictive policy can be automatically employed.
With reference to
-
- <vpn_name>AlphaCo VPN</vpn_name>
where “vpn_name” is a variable name to configure the name of the VPN and “AlphaCo VPN” is the value for the “vpn_name” setting.
- <vpn_name>AlphaCo VPN</vpn_name>
A management service can offer an administrator console that allows the administrator to oversee the configuration and operation of client devices 50 enrolled with the management service. To create a configuration profile 25 for a particular group of client devices 50, the administrator console can include a wizard in which an administrator interacts with a series of user interfaces to specify settings for managed client devices 50. However, at the beginning of the wizard, the administrator is traditionally required to select an operating system, where any options shown throughout the wizard would be specific to the selected operating system. For instance, the first operation required by an administrator is to specify an operating system (or other platform). If the administrator selects “Operating System #1,” the management services provides one or more user interfaces where the administrator configures the applications, resources, and policies specific to that operating system. After completion, the management service generates a configuration profile 25a that is deployed to client devices 50a having “Operating System #1” installed thereon.
Although the administrator potentially performed a vast amount of configurations while generating the configuration profile 25a for “Operating System #1,” the administrator is required to repeat this process for “Operating System #2,” “Operating System #3,” and so forth, thereby repeatedly configuring settings that may have been applicable to “Operating System #1.” The process of creating a configuration profile 25 is thus redundant and operationally inefficient. However, due to the existence of differing operating systems, the varying capabilities and configurability of the operating systems, or due to other hardware or software specifications, the administrator console is required to separate the settings for each operating system.
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Establishing a common setting can include, for example, generating a type of file, commonly referred to as a “resource,” that includes information pertaining to the setting. For instance, an administrator can create a resource that includes Wi-Fi settings, a resource that includes VPN settings, or a resource that includes email settings for an enterprise. Thereafter, after common settings have been specified, the process can include configuring advanced settings that may be unique to a particular operating system or version of operating system. For instance, any Wi-Fi, VPN, or email settings that are specific to a particular operating system can then be configured.
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The computing environment 103 can include, for example, a server computer or any other system providing computing capability. Alternatively, the computing environment 103 can include a plurality of computing devices that are arranged, for example, in one or more server banks, computer banks, or other arrangements. The computing environments 103 can include a grid computing resource or any other distributed computing arrangement. The computing devices can be located in a single installation or can be distributed among many different geographical locations.
The computing environments 103 can also include or be operated as one or more virtualized computer instances. For purposes of convenience, the computing environment 103 is referred to herein in the singular. Even though the computing environment 103 is referred to in the singular, it is understood that a plurality of computing environments 103 can be employed in the various arrangements as described above. As the computing environment 103 communicates with the client device 50 remotely over the network 109, the computing environment 103 can be described as a remote computing environment 103.
The data store 112 can include memory of the computing environment 103, mass storage resources of the computing environment 103, or any other storage resources on which data can be stored by the computing environment 103. The data stored in the data store 112, for example, can be associated with the operation of the various applications or functional entities described below.
The components executed on the computing environment 103 can include, for example, a management service 115 as well as other applications, services, processes, systems, engines, or functionality not discussed in detail herein. The management service 115 can be executed to oversee the operation of client devices 50 enrolled with the management service 115. In some examples, an enterprise, such as a company, organization, or other entity, can operate the management service 115 to oversee or manage the operation of the client devices 50 of its employees, contractors, customers, or other users having accounts with the enterprise.
The management service 115 can cause various software components to be installed on a client device 50. Such software components can include, for example, client applications, resources, libraries, drivers, device configurations, or other similar components that require installation on the client device 50 as specified by an administrator of the management service 115. The management service 115 can further cause policies to be implemented on a client device 50. Policies can include, for example, restrictions or permissions pertaining to capabilities of a client device 50 such that access to enterprise data is secured on the client device 50.
The management service 115 can interact with one or more client applications 118a . . . 118b executed on the client devices 50. In one example, the management service 115 interacts with an agent application 121a . . . 121b on the client device 50 to enroll the client device 50 with the management service 115. The agent application 121 can be registered as a device administrator of the client device 50, which can provide the agent application 121 with sufficient privileges to control the operation of the client device 50. The agent application 121 can be configured to configure a client device 50 in accordance with a configuration profile 25 based on, for example, an analysis of an XML document.
In one example, the agent application 121 can be registered as the device administrator through the installation of a management profile at the operating system of the client device 50 that causes the operating system to designate the agent application 121 as the device administrator. The management service 115 can direct the agent application 121 to perform device management functions on the client device 50. For example, the management service 115 can direct the agent application 121 to control access to certain software or hardware functions available on the client device 50. As a result, the management service 115 can verify that configuration and operation of the client device 50 is in conformance with predefined criteria that ensures that enterprise data, or other data, is protected from data loss, unauthorized access, or other harmful event. The management service 115 can further provision enterprise data to the client device 50 through the agent application 121.
In one example, the management service 115 can cause the agent application 121 to control use of the client device 50 or provision enterprise data to the client device 50 through use of a command queue provided by the management service 115. The management service 115 can store commands in a command queue associated with a particular client device 50 and can configure the agent application 121 executed by such client device 50 to retrieve the contents of the command queue. In one example, the agent application 121 can be configured to retrieve the contents of the command queue on a configured interval, such as every four hours, or upon a certain event occurring, such as detection of an unauthorized application executed by the client device 50. In any case, the agent application 121 can retrieve the contents of the command queue by checking in with the management service 115 and requesting the contents of the command queue. In one example, the contents of the command queue can include a command that the agent application 121 should cause to be executed on the client device 50. In another example, the contents of the command queue can include a resource or client application 118 that the agent application 121 should cause to be installed on the client device 50, which the client device 50 may access through a URL specified by the command retrieved through the command queue.
In one example, the management service 15, upon receiving a request to publish a configuration profile 25 to one or more client devices 50, can identify one or more data records associated with such configuration profile 25 and can populate command queues associated with such client devices 50 with commands associated with such data records. For instance, a data record associated with a client application 118 can specify that a particular application should be installed, a particular configuration for the particular application should be applied, and a particular uniform resource locator (URL) from which the particular application can be downloaded. Based on such data record specifications, a command can be generated and placed in a command queue that, when executed by the client device 50, causes the client device 50 to download the particular application from the particular URL, install the application, and change configuration data associated with the particular application to cause the particular application to function in accordance with the particular configuration.
Accordingly, upon a request to publish a configuration profile 25 to particular client devices 50, the management service 115 can identify one or more data records associated with the configuration profile 25 and can appropriately populate command queues associated with such client devices 50, which can in turn cause such client devices 50 to operate in accordance with the specifications associated with the deployment configuration 160.
The data stored in the data store 112 can include, for example, configuration profiles 25, device data 130, operating system data 133, enterprise data 136, as well as other data. Generally, configuration profiles 25 include data associated with a configuration of a client device 50 enrolled or managed by the management service 115. Configuration profiles 25 can include, for example, data generated by an administrator that deploys specified client applications 118, resources, policies, or other data to a client device 50.
In one example, the management service 115 generates one or more user interfaces that obtain information about the configuration of client devices 50 enrolled (or to be enrolled) with the management service 115. The process of filling out information in the user interfaces, such as through a wizard, is referred to herein as an ingestion process. Through the ingestion process, an administrator or other appropriate user can provide information regarding how the administrator desires to configure the client devices 50. In one example, the administrator can specify one or more client applications 118 to be installed on the client device 50. After completion of the ingestion process, a configuration profile 25 is generated and published. When published, the management service 115 or the agent application 121 on a client device 50 can identify the configuration profile 25 as being applicable to the client device 50 and, as a result, will download and install the client application 118 specified by the administrator.
Resources 139 can include files or other applicable data relating to the configuration of a client device 50 and include settings common to different platforms, operating systems, or types of client devices 50. In one example, a first resource 139 can include a file having Wi-Fi settings, a second resource 139 can include a file having VPN settings, and a third resource 139 can include a file having email settings. The management service 115 can generate a first payload that includes XML schema pertaining to Wi-Fi settings by consulting the first resource 139. Similarly, the management service 115 can generate a second payload pertaining to VPN settings by consulting the second resource 139 and a third payload pertaining to email settings by consulting the second resource 139. An example of a payload for settings obtained for a resource 139, such as a Wi-Fi resource 139, can appear as follows:
The first payload, the second payload, and the third payload can be generated using variable names corresponding to a particular type of version of an operating system. Thus, a configuration profile 25 can be generated for an operating system by consolidating the first payload, the second payload, and the third payload into a single configuration profile 25.
Some examples of Wi-Fi settings that can be defined by an administrator and stored in a resource 139 include an SSID name, a password, a network type, Wi-Fi band, or an authentication protocol for the Wi-Fi network, such as extensible authentication protocol (EAP), transport layer security (TLS), wired equivalent privacy (WEP), or protected extensible authentication protocol (PEAP). The network type can include, for example, standard, legacy, or passpoint. The Wi-Fi band can include, for example, 2.4 GHz, 5.0 GHz, or other appropriate band.
VPN settings that can be defined by an administrator and stored in a resource 139 can include, for example, a connection name, a connection type, a server or IP address, or authenticate type, such as on-demand authentication, password-based authentication, certificate-based authentication, or other known VPN authentication types. The connection type can include, for example, secure socket layer (SSL). In another example, a VPN setting can include, for example, establishing a VPN for an individual client application 118, also referred to as “per-app tunneling.” In another example, a VPN setting can include establishing a secure socket layer virtual private network (SSL-VPN). Email settings that can be defined by an administrator and stored in a resource 139 can include, for example, an enterprise domain, an email address, a password, an email server setting, a password policy setting, an email certificate setting, and an email attachment setting. Additionally, an agent application 121 configuring an email setting on a client device 50 can include, for example configuring a third-party application, such as a third-party email client.
In some examples, the management service 115 accesses information stored in a resource 139 for inclusion in the configuration profile 25. By providing a configuration profile 25 to the client device 50, for example, having information pertaining to a wireless network, the agent application 121 can preconfigure the client device 50 to access the wireless network using the authentication data.
In further examples, the computing environment 103 can include policies, which include constraints specified by an administrator for a client device 50 to be in “compliance” with the management service 115. Policies can include compliance rules or other criteria. In one example, the agent application 121 can configure hardware or software functionality of a client device 50 such that the client device 50 operates in conformance with the policies. Additionally, the agent application 121 can identify when the client device 50 is not in conformance with the policies and can take appropriate remedial actions, such as denying access to enterprise data 136 or other features of the agent application 121.
In some examples, the management service 115 communicates with the agent application 121 or other client application 118 executable on the client device 50 to determine whether vulnerabilities exist on the client device 50 that do not satisfy policies defined by an administrator. Vulnerabilities can include, for example, the presence of a virus or malware on the client device 50, the client device 50 being “rooted” or “jailbroken” where root access is provided to a user of the client device 50, the presence of particular applications or files, questionable device configurations, vulnerable versions of client applications, or other vulnerability as can be appreciated.
Device data 130 can include, for example, data pertaining to an enrollment status for individual ones of the client devices 50. In one example, a client device 50 designated as “enrolled” can be permitted to access the enterprise data 136 while a client device 50 designated as “not enrolled” or having no designation can be denied access to the enterprise data 136. Device data 130 can also include data pertaining to user groups 142. An administrator can specify one or more of the client devices 50 as belonging to a particular user group 142. The management service 115 can use a configuration profile 25 applicable to the particular user group 142 and/or applicable to an operating system (or other feature) of the client devices 50 to configure the client devices 50.
The operating system data 133 can include information pertaining to different types of operating systems 166 as well as data relating to the configuration of the different types of operating systems 166. The operating system data 133 can include, for example, variable names 145 used to configure a setting for a type or a version of operating system 166. The operating system data 133 can include a mapping of a field of a user interface to different variable names 145 for different operating systems. For instance, to configure an SSID for a wireless network on an iOS device, the variable name 145 can include “iOS_SSID,” where a configuration profile 25 would have to include this variable name 145 in order to successfully configure the SSID for the wireless network. However, to configure an SSID for a wireless network on an Android® device, a different variable name 145 would have to be used, as will be described.
The client devices 50a . . . 50b can include a processor-based system, such as a computer system, that can include a desktop computer, a laptop computer, a personal digital assistant, a cellular telephone, a smartphone, a set-top box, a music player, a tablet computer system, a game console, an electronic book reader, or any other device with like capability. The client device 50 can also be equipped with networking capability or networking interfaces, including a localized networking or communication capability, such as a near-field communication (NFC) capability, radio-frequency identification (RFID) read or write capability, or other localized communication capability.
The client devices 50 can include an operating system 166a . . . 166b configured to execute various client applications 118, such as the agent application 121 as well as other applications. Some client applications 118 can access network content served up by the computing environment 103 or other servers, thereby rendering a user interface 169a . . . 169b on a display 172a . . . 172b, such as a liquid crystal display (LCD), touch-screen display, or other type of display device. To this end, some client applications 118 can include a browser or a dedicated application, and a user interface can include a network page, an application screen, or other interface. Further, other client applications 118 can include device management applications, enterprise applications, social networking applications, word processors, spreadsheet applications, media viewing application, or other applications.
Next, a general description of the operation of the various components of the networked environment 100 is provided. The management service 115 can be employed, for example, to manage and oversee the operation of client devices 50. For example, in a BYOD environment, an administrator can oversee the operation of client devices 50 using the management service 115 such that unauthorized access to enterprise data 136 is not obtained. Additionally, the management service 115 can provision (or “serve up”) enterprise data 136 to client devices 50 enrolled with the management service 115 and in conformance with policies defined by an administrator.
In BYOD environments, it can be expected that different types of client devices 50 can have different operating systems 166 installed thereon. For example, an operating system 166 executing on a client device 50 can include the Microsoft Windows®, Apple iOS, Apple OSX®, Android®, Ubuntu® Linux, or other operating system 166. Each operating system 166 and client device 50 can provide varying degrees of features, capabilities, and restrictions. For example, one operating system 166 can allow an administrator to control camera functionality on a device while a different operating system 166 can restrict or not provide access to camera functionality. Configuring devices having one of a multitude of operating systems 166 operating system with varying capabilities and restrictions can be problematic, even to administrators having in-depth knowledge of device capabilities.
To avoid having to generate configuration profiles 25 that include resources 139 applicable to different platforms, in some examples, the management service 115 can permit an administrator to specify resources 139, or other platform-independent settings, prior to a specification of an operating system 166. Using the resources 139, the management service 115 can dynamically construct configuration profiles 25 that are able to be interpreted by different operating systems 166 although a configuration profile 25 for a first operating system 166 can be different than a configuration profile 25 for a second operating system 166.
The management service 115 can identify a value from a field of a user interface 169 specified by an administrator, where the field pertains to a setting common or applicable to a multitude of different operating systems 166. The field would only have to be filled in or completed by the administrator once, instead of having to enter a value into the field for each operating system 166 supported.
The management service 115 can determine a first variable name 145 for inclusion in a first configuration profile 25a in association with the value based on a first operating system 166a. For example, a variable name 145 for a wireless network on iOS may include “WiFiMac.” Using this variable name 145, the management service 115 can generate a configuration profile 25 which will be deployed to iOS devices to configure the wireless network settings. Additionally, the management service 115 can determine a second variable name 145 for inclusion in a second configuration profile 25b in association with the value based at least in part on a second (and different) operating system 166b. For instance, the “WiFi_iOS” variable name 145 would not successfully configure a wireless network on an Android® device. Instead, a second configuration profile 25b can be generated using the “WiFi_Android” variable name 145 for deployment to Android® devices.
The management service 115 can dynamically generate both the first configuration profile 25a and the second configuration profile 25b using the appropriate variable names 145 such that the value is a parameter of the first variable name 145 for deployment to a first client device 50a having the first operating system 166a installed thereon and a second client device 50b having the second operating system 166b installed thereon. An administrator is thus not required to create two different configuration profiles 25 for each operating system 166 as the creation of the profiles and the mapping of variables names 145 to a particular operating system 166 are handled dynamically. The management service 115 can publish the deployment configurations 25 for at least one user group 142, thereby causing the client devices 50 to automatically implement or install the configuration profiles 25 on the client devices 106 enrolled with the management service 115, or at a time when a client device 50 newly enrolls with the management service 115.
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The user interface 169 can include a field 500. While not shown, the field 500 can be associated with a name, such as “common_wifi_ssid,” that can be queried to identify the value of the field 500, such as “AlphaCo Employee WiFi.” The management service 115 can maintain a listing of fields 500 in the user interfaces 169 that are not specific to a particular operating system 166 or device. For example, settings pertaining to Wi-Fi, VPN, or email are not specific to a particular type of operating system 166. Fields 500 can include a textbox for entry of a WiFi SSID or password, a textbox for entry of a VPN internet protocol (IP) address, or a textbox for an email server address, and so forth. The value of the field 500, in the example of
In some examples, the agent application 121 of a client device 50 can configure the client device 50 to automatically connect to an email server without a user of the client device 50 being required to manually input authentication information, such as a mail client, account name, Exchange® host (or other email application host), “use SSL” setting, “use S/MIME” setting, login information, a S/MIME certification setting (if the “use S/MIME” setting is selected), or other technical information. In some examples, the login information can include a domain setting, a username, an email address, a password, and an identity certificate.
In another example, resources 139 can include settings for a wireless network such that the client device 50 can be configured to automatically connect to the wireless network without a user of the client device 50 being required to manually input authentication information, such as a SSID name, authentication protocol or security type setting, hidden network settings, auto-join setting, password (if required depending on the authentication protocol or the security type setting), or other Wi-Fi setting.
In another example, resources 139 can include settings for a VPN such that the client device 50 can be configured to automatically connect to the VPN without a user of the client device 50 being required to manually input authentication information, such as an IP address for a VPN server. Notably, in a header 503 of the user interface 169, selection of the platforms (or operating systems 166) is performed after a specification of the settings common across platforms.
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For instance, to configure an SSID for a wireless network on a client device 50 having version 10 of iOS, the configuration profile 25 must include a variable name 145 and a value. As shown in the emphasized XML markup of
Notably, the variable name 145 of “SSID_STR” is shown and the value of “AlphaCo Employee WiFi” is shown as a value of the “SSID_STR” variable name 145. The agent application 121 can thus use the information to make an appropriate API call using the variable name 145 and the value to configure a client device 50.
In some situations, legacy configuration profiles 25 can exist, such as those created in legacy wizards where an operating system 166 is selected prior to configuration of resources 139 and other settings. Accordingly, in some examples, the management service 115 can consult the database table 700b of
The database table 700c of
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Using the value of the field 500, the management service 115 can generate a different configuration profile 25 for different operating systems 166. For instance, XML markup of a configuration profile 25 for Android® is shown in
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The management service 115 can generate a dialog 800 shown in
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Each type of operating system 166 or device can have a different degree of configurability for VPN settings. Thus, each of the user interfaces 169a . . . 169k can include fields 500 varying from other platforms. Additionally, the fields 500 shown in the user interfaces 169a . . . 169l can depend on values provided in the user interface 169 shown in
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When generating a configuration profile 25 for a platform assigned to the resource 139, the management service 115 can utilize the values provided in the fields 500 to generate an XML file capable of interpretation by the different platforms. In some examples, the default values for common settings can include, “Exchange” as the resource name, “Native Mail Client” as the mail client, “Exchange Account” as the account name, a webmail address as the Exchange host, “Unlimited” as the past days of mail to sync setting, as well as various wildcard tags in the domain, username, and email address settings. The wildcard tags can be substituted with a corresponding value for a device at the time the configuration profile 25 is generated, as can be appreciated. The use SSL setting, the sync calendar setting, and the sync contacts setting can be checked by default.
The user interfaces 169b . . . 169d of
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In some examples, the SSID can be a required field 500 and be empty by default. Additionally, values for the security type can include, for example, “None,” “Shared,” “WPA Personal,” “WPA2 Personal,” “WPA Enterprise,” “WPA2 Enterprise,” or similar value. In some examples, if “Shared” is selected as a security type, values for the encryption setting can include “WEP,” “TKIP,” “AES,” or similar method. If the security type is set to WPA/WPA2 Personal or WPA/WPA2 Enterprise, the encryption setting can include “None,” “WEP,” “TKIP,” “AES,” or similar setting. If the security type is set to one of “Shared,” “WPA Personal,” or “WPA2 Personal,” the password field can appear with a “Show Characters” checkbox. If the security type is set to either “WPA Enterprise” or “WPA2 Enterprise,” the protocol field can be shown with the following values: “TTLS,” “PEAP,” and “TLS.”
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Beginning with step 903, the computing environment 103 can identify a field that pertains to a setting common to various operating systems 166. In other words, the computing environment 103 can locate a field in a user interface that is not specific to a particular operating system 166 or device. In some examples, common settings can include settings pertaining to Wi-Fi, VPN, or email. Thus, the field can include a textbox for entry of a Wi-Fi SSID or password, a textbox for entry of a VPN internet protocol (IP) address, or a textbox for an email server address. In some examples, the computing environment 103 can identify the field based on a “name” attribute associated with the field. For example, a textbox can be defined for use in a user interface using the following hypertext markup language (HTML) markup:
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- <input type=“text” name=“common_wifi_ssid”/>
The computing environment 103 can identify the HTML markup above using JavaScript, jQuery, or related language library based on the name field, the “common_” preface of the name of the field, or the name of the field itself. For instance, the data store 112 can maintain a listing of names for fields that are common to different operating systems 166.
- <input type=“text” name=“common_wifi_ssid”/>
In step 906, the computing environment 103 can identify the value from the field. As can be appreciated, the value can include something an administrator typed into a textbox, selected from a dropdown box, selected from an option box, or other interaction with a field of a user interface. For instance, the computing environment 103 can use JavaScript, jQuery, or related language library to access the value of the field having the name “common_wifi_ssid.”
In step 909, the computing environment 103 can determine a first variable name 145 for inclusion in a first configuration profile 25. The computing environment 103 can identify the first variable name 145, for example, from the data store 112 based on a first operating system 166 specified by an administrator. As noted above, the configuration profile 25 can include an XML document having markup text that can be parsed by the client device 50. The XML document can include, for example, XML markup. Assuming the administrator desires to create a configuration profile 25 for iOS devices, an HTML tag can be constructed dynamically to form an XML document reading:
where “WiFi_Mac_SSID” is the variable name 145 identified for the Wi-Fi SSID for iOS devices. As can be appreciated, the agent application 121 on the client device 50 will use the variable name 145 to configure the client device 50. If the operating system 166 of the client device 50 is not iOS, the client device 50 will not be properly configured.
Similarly, in step 912, the computing environment 103 can determine a second variable name 145 for inclusion in a second configuration profile 25. The computing environment 103 can identify the second variable name 145, for example, from the data store 112 based on a second operating system 166 specified by an administrator. As the variable name 145 identified in step 909 will not work a different operating system 166. e.g., the second operating system 166 specified by the administrator, the variable name 145 must be one that will successfully configure the second operating system 166. Assuming the second operating system 166 selected by the administrator in Android®, an HTML tag can be constructed dynamically to form an XML document reading:
where “WiFi_Droid_SSID” is the variable name 145 identified for the Wi-Fi SSID for Android® devices.
In step 915, the computing environment 103 can dynamically generate the first configuration profile 25 using the value identified in step 906 and the first variable name 145 determined in step 909. Generating a configuration profile 25 can include, for example, creating a new XML document or modifying an existing XML document to include the variable name 145 and the value while complying with XML schema. In some examples, the variable name 145 and the value can be specified as a key-value pair, where the variable name 145 determined in step 909 is the key and the value identified in step 906 is the value in the key-value pair.
Similarly, in step 918, the computing environment 103 can dynamically generate the second configuration profile 25 using the value identified in step 906 and the second variable name 145 determined in step 912. While the first configuration profile 25 and the second configuration profile 25 are both generated dynamically using the same value identified from step 906, it is understood that the first configuration profile 25 and the second configuration profile 25 may be vastly different based on the differences among the variable names 145 and the XML schema required by the first and second operating systems 166.
Next, in step 921, the computing environment 103 can receive a specification of a user group. For instance, the administrator can specify particular configuration profiles 25 be deployed to client devices 50 associated with particular user groups. In some examples, the user groups can pertain to a particular organization unit in an enterprise, such as “IT Team Devices,” “Sales Team Devices.” or “Engineering Team Devices.” In some examples, the user groups can pertain to a particular operating system 166 or type of device, such as “Android Devices,” “iOS Devices,” or “Windows Mobile Devices.” The customization of user groups can be dependent on the various needs of an administrator to configure different types of devices or devices associated with particular personnel, as can be appreciated.
In step 924, the computing environment 103 can determine whether to publish the first configuration profile 25 and/or the second configuration profile 25. For instance, after completion of the wizard, the administrator can specify whether to save the configuration profiles 25 for later access or modification, or can instruct the computing environment 103 to publish the configuration profiles 25. Publication can include, for example, the computing environment 103 sending the configuration profiles 25 to client device 50 corresponding to the user group specified in step 921. The client device 50, upon receipt of the configuration profile 25, can configure the client device 50 in accordance with the settings specified in the configuration profile 25.
If the administrator has not published the configuration profiles 25, the process can continue to step 927. In step 927, the computing environment 103 can save the configuration profiles 25 in the data store 112 for later access by the administrator. Thereafter, the process can proceed to completion. Referring back to step 924, if the administrator has published the configuration profiles 25, the process can proceed to step 930.
In step 930, the computing environment 103 can save and publish the configuration profiles 25. As noted above, the computing environment 103 will publish the configuration profiles 25 by sending the configuration profiles 25 to client devices 50 corresponding to the user group specified in step 921. Additionally, the first configuration profile 25 will be sent to a subset of the client devices 50 having the first operating system 166 installed thereon while the second configuration profile 25 will be sent to client devices 50 having the second operating system 166 installed thereon.
In step 933, the computing environment 103 can cause the client devices 50 enrolled with the management service 115 to be configured in accordance with the configuration policies. In one example, the client device 50, upon receipt of a configuration profile 25, can automatically configure the client device 50 in accordance with the settings specified in the configuration profile 25. In another example, the client device 50, upon receipt of a configuration profile 25, can store the configuration profile 25 on the client device 50 until the computing environment 103 instructs the client device 50 to configure the client device 50 to self-configure using the configuration profile 25. If a client device 50 is part of more than one user group, any duplicate client applications, resources, or other data can be ignored and, if conflicting policies exist among the different user groups, then the more restrictive policy can be automatically employed. Thereafter, the process can proceed to completion.
Turning now to
Typically, when an end user starts employment at an enterprise, he or she is required to download the agent application 121 on his or her client device 50 and start an enrollment process through the agent application 121. The enrollment process can include providing an email address, a password, or other authentication information. When attempting to enroll, the agent application 121 can be configured to communicate with the computing environment 103, which then provides the agent application 121 with a configuration profile 25 for the client device 50. However, in some situations, a configuration profile 25 may not exist that is applicable to the client device 50. For instance, an administrator may have created a configuration profile 25 for iOS devices; however, the administrator may have not created a configuration profile 25 for Android® devices. If a client device 50 having the Android® operating system 166 installed thereon attempts to enroll with the management service 115, the management service 115 does not have a configuration profile 25 to provide to the client device 50. As a result, the management service 115 is required to deny enrollment or enrolls the client device 50 without being able to oversee operating of the client device 50, which subjects enterprise data 136 to unauthorized access. Accordingly, in some examples, a configuration profile 25 can be generated for the client device 50 dynamically, even though an administrator has not created a configuration profile 25 for an operating system 166 of the client device 50.
Beginning with step 1003, the computing environment 103 can receive a request from a client device 50 for a configuration profile 25. In some examples, when a user of an agent application 121 executes the agent application 121 and provides suitable authentication information, the agent application 121 can communicate a request to the computing environment 103 for an applicable configuration profile 25. As noted above, in some situations, a configuration profile 25 for the particular type of client device 50 or particular operating system 166 of the client device 50 may not exist.
Hence, in step 1006, the computing environment 103 can determine whether a configuration profile 25 is available (or has been created) for the client device 50. In some examples, the determination is made based on an operating system 166 of the client device 50, a manufacturer of the client device 50, a user group 142 for the client device 50, other hardware or software settings or capabilities of the client device 50, as well as other information.
If a configuration profile 25 exists, for example, when an administrator has previously created a configuration profile 25 that is available to the client device 50, the process can proceed to step 1009. In step 1009, the configuration profile 25 identified in step 1006 is merely published or otherwise made available to the client device 50. As can be appreciated, the agent application 121 can download the configuration profile 25 and configure the client device 50 accordingly. Thereafter, the process can proceed to completion.
Referring back to step 1006, as discussed above, in some scenarios, a configuration profile 25 for the particular type of client device 50 or particular operating system 166 of the client device 50 may not exist. If a configuration profile 25 is not available, the process can proceed to step 1012.
In step 1012, the computing environment 103 can determine an operating system 166 of the client device 50. In some examples, the request received by the computing environment 103 can include information identifying the operating system 166. In other examples, the computing environment 103 can send a request to the agent application 121 to transmit information pertaining to the operating system 166, such as an operating system manufacturer, version number, update number, or other information that can be used to identify a type or version of an operating system 166 installed on the client device 50.
Next, in step 1015, the computing environment 103 can determine a user group 142 for the client device 50, if applicable. For instance, an email address provided by an end user can include “sales.enterprise.site” when enrolling through the agent application 121, where the “sales.enterprise.site” domain indicates that the end user is a member of the “Enterprise Sales” user groups 142.
In step 1018, the computing environment 103 can determine a variable name 145 for inclusion in a first configuration profile 25. The computing environment 103 can identify the variable name 145, for example, from the data store 112 based on a type or version of the operating system 166 identified in step 1012. As noted above, the management service 115 can generate a configuration profile 25 having markup text that can be parsed by the client device 50. The configuration profile 25 can include, for example, XML markup. As can be appreciated, the agent application 121 on the client device 50 will use the variable name 145 to configure the client device 50.
In step 1021, the computing environment 103 can determine a format for the configuration profile 25 based on, for example, a type or version of the operating system 166 identified in step 1012. For example, while a configuration profile 25 for a first operating system 166 and a configuration profile 25 for a second operating system 166 are both XML documents, the arrangement of the XML markup in the document must be structured differently. Accordingly, the computing environment 103 can maintain templates or other information pertaining to the required format or schema for the configuration profiles 25 in operating system data 133.
Next, in step 1024, the computing environment 103 can dynamically generate the configuration profile 25 based on the format identified in step 1021 and using the variable names 145 identified in step 1018. Moreover, common settings can be identified for inclusion in the configuration profile 25. For example, Wi-Fi settings, VPN settings, or email settings can be identified using the process described in
In step 1027, the computing environment 103 can save and publish the configuration profile 25. Publication can include, for example, the computing environment 103 sending the configuration profile 25 to the requesting client device 50. In some examples, an administrator can be notified prior to publication. The administrator can determine, for example, whether to authorize publication of the configuration profile 25 for the client device 50 or other client devices 50 having the same or similar operating system 166 installed thereon.
In step 1030, the computing environment 103 can cause the client devices 50 enrolled with the management service 115 to be configured in accordance with the configuration policies. In one example, the client device 50, upon receipt of a configuration profile 25, can automatically configure the client device 50 in accordance with the settings specified in the configuration profile 25. In another example, the client device 50, upon receipt of a configuration profile 25, can store the configuration profile 25 on the client device 50 until the computing environment 103 instructs the client device 50 to configure the client device 50 to self-configure using the configuration profile 25. If a client device 50 is part of more than one user group, any duplicate client applications, resources, or other data can be ignored, and if conflicting policies exist among the different user groups, then the more restrictive policy can be automatically employed. Thereafter, the process can proceed to completion.
Referring next to
When customizing a configuration profile 25, administrators often encounter situations in which the administrators do not have a requisite understanding of a field 500 for a particular value. For instance, in the example user interface 169 of
Beginning with step 1203, the computing environment 103 can identify a request to create a new configuration profile 25. For instance, an administrator can begin an ingestion process where the administrator is presented with a series of user interfaces 169 to obtain information that will be used to generate the configuration profile 25. For instance, the administrator can specify settings pertaining to client application 118 required for installation on the client devices 50. The administrator can further specify settings pertaining to policies to be implemented on the client device 50, such as hardware or software functions that are able to be performed on the client device 50. In some examples, the hardware or software functions can include taking a photograph, capturing a screenshot, using Bluetooth® functions, or other functions as can be appreciated.
Next, in step 1206, the computing environment 103 can identify a field 500 for input of a setting. For instance, the user interfaces 169 in the ingestion process include fields 500, such as textboxes, checkboxes, dropdown menus, or other types of fields 500, that allow an administrator to specify a setting for overseeing or managing operation of a client device 50. The computing environment 103 can identify the field 500, or other field 500, as a user interface 169 is generated. As can be appreciated, the field 500 may be associated with a setting that is problematic for some administrators to configure.
In step 1209, the computing environment 103 can query existing configuration profiles 25 to identify existing settings that have been specified through the field 500. For instance, the computing environment 103 can identify a value to recommend to the user based on values having been used in the creation of other configuration profiles 25. To this end, in some examples, a commonly used value can be identified as a suggestion for the administrator. In some examples, the computing environment 103 can query configuration profiles 25 previously created by the same administrator. In other examples, the computing environment 103 can query configuration profiles 25 previously created by a group of administrators at a same enterprise. In further examples, the computing environment 103 can query configuration profiles 25 previously created by administrators at various enterprises.
Next, in step 1212, the computing environment 103 can rank existing settings specified through the field 500 to determine a recommended value for the field 500. The computing environment 103 can rank the values identified in step 1209, for example, based on a score determined for each of the values. In some examples, a score can be determined for a value based on a number of uses of a value in active configuration profiles 25. In additional examples, the score can be determined for a value based on whether the value has caused an error on a client device 50. In further examples, the score can be determined for a value based on whether the value has been deployed on client devices 50 associated with similar types of enterprise. For example, assuming an enterprise operating the management service 115 is in the hotel industry, other values common for other enterprises in the hotel industry can be identified and scored higher than values common in non-related industries.
In some examples, an administrator can specify a number of client applications 118 that can be installed on the client devices 50. In these examples, the value identified to recommend to the user can include one or more client applications 118. In other examples, an administrator can specify one or more policies that can be implemented on the client devices 50, such as disabling camera functionality when a client device 50 is in a particular geographic location. The value identified for recommendation to the administrator can include policies implemented by similar types of enterprises.
In step 1215, the computing environment 103 can generate a user interface 169 comprising the field 500, where the field 500 is pre-populated to include the recommended value determined in step 1212. For instance, if the most commonly used setting for the field 500a in
In step 1218, the computing environment 103 can save and publish the configuration profile 25. Publication can include, for example, the computing environment 103 sending the configuration profile 25 to the requesting client device 50. In some examples, an administrator can be notified prior to publication. The administrator can determine, for example, whether to authorize publication of the configuration profile 25 for the client device 50 or other client devices 50 having the same or similar operating system 166 installed thereon.
In step 1221, the computing environment 103 can cause the client devices 50 enrolled with the management service 115 to be configured in accordance with the configuration policies. In one example, the client device 50, upon receipt of a configuration profile 25, can automatically configure the client device 50 in accordance with the settings specified in the configuration profile 25. In another example, the client device 50, upon receipt of a configuration profile 25, can store the configuration profile 25 on the client device 50 until the computing environment 103 instructs the client device 50 to configure the client device 50 to self-configure using the configuration profile 25. If a client device 50 is part of more than one user group, any duplicate client applications, resources, or other data can be ignored and, if conflicting policies exist among the different user groups, then the more restrictive policy can be automatically employed. Thereafter, the process can proceed to completion.
The client devices 50 or devices comprising the computing environment 103 can include at least one processor circuit, for example, having a processor and at least one memory device, both of which are coupled to a local interface, respectively. The device can include, for example, at least one computer, a mobile device, smartphone, computing device, or like device. The local interface can include, for example, a data bus with an accompanying address/control bus or other bus structure.
Stored in the memory device are both data and several components that are executable by the processor. In particular, stored in the one or more memory devices and executable by the device processor can be the client application 118, and potentially other applications. Also stored in the memory can be a data store 112 and other data.
A number of software components are stored in the memory and executable by a processor. In this respect, the term “executable” means a program file that is in a form that can ultimately be run by the processor. Examples of executable programs can be, for example, a compiled program that can be translated into machine code in a format that can be loaded into a random access portion of one or more of the memory devices and run by the processor, code that can be expressed in a format such as object code that is capable of being loaded into a random access portion of the one or more memory devices and executed by the processor, or code that can be interpreted by another executable program to generate instructions in a random access portion of the memory devices to be executed by the processor. An executable program can be stored in any portion or component of the memory devices including, for example, random access memory (RAM), read-only memory (ROM), hard drive, solid-state drive, USB flash drive, memory card, optical disc such as compact disc (CD) or digital versatile disc (DVD), floppy disk, magnetic tape, or other memory components.
Memory can include both volatile and nonvolatile memory and data storage components. Also, a processor can represent multiple processors and/or multiple processor cores, and the one or more memory devices can represent multiple memories that operate in parallel processing circuits, respectively. Memory devices can also represent a combination of various types of storage devices, such as RAM, mass storage devices, flash memory, or hard disk storage. In such a case, a local interface can be an appropriate network that facilitates communication between any two of the multiple processors or between any processor and any of the memory devices. The local interface can include additional systems designed to coordinate this communication, including, for example, performing load balancing. The processor can be of electrical or of some other available construction.
The client devices 50 can include a display 172 upon which a user interface 169 generated by the client application 118 or another application can be rendered. In some examples, the user interface 169 can be generated using user interface data provided by the computing environment 103. The client device 50 can also include one or more input/output devices that can include, for example, a capacitive touchscreen or other type of touch input device, fingerprint reader, or keyboard.
Although the management service 115, the client application 118, and other various systems described herein can be embodied in software or code executed by general-purpose hardware as discussed above, as an alternative the same can also be embodied in dedicated hardware or a combination of software/general purpose hardware and dedicated hardware. If embodied in dedicated hardware, each can be implemented as a circuit or state machine that employs any one of or a combination of a number of technologies. These technologies can include discrete logic circuits having logic gates for implementing various logic functions upon an application of one or more data signals, application specific integrated circuits (ASICs) having appropriate logic gates, field-programmable gate arrays (FPGAs), or other components.
The sequence diagram and flowcharts show an example of the functionality and operation of an implementation of portions of components described herein. If embodied in software, each block can represent a module, segment, or portion of code that can include program instructions to implement the specified logical function(s). The program instructions can be embodied in the form of source code that can include human-readable statements written in a programming language or machine code that can include numerical instructions recognizable by a suitable execution system such as a processor in a computer system or other system. The machine code can be converted from the source code. If embodied in hardware, each block can represent a circuit or a number of interconnected circuits to implement the specified logical function(s).
Although the sequence diagram flowcharts show a specific order of execution, it is understood that the order of execution can differ from that which is depicted. For example, the order of execution of two or more blocks can be scrambled relative to the order shown. Also, two or more blocks shown in succession can be executed concurrently or with partial concurrence. Further, in some examples, one or more of the blocks shown in the drawings can be skipped or omitted.
Also, any logic or application described herein that includes software or code can be embodied in any non-transitory computer-readable medium for use by or in connection with an instruction execution system such as, for example, a processor in a computer system or other system. In this sense, the logic can include, for example, statements including instructions and declarations that can be fetched from the computer-readable medium and executed by the instruction execution system. In the context of the present disclosure, a “computer-readable medium” can be any medium that can contain, store, or maintain the logic or application described herein for use by or in connection with the instruction execution system.
The computer-readable medium can include any one of many physical media, such as magnetic, optical, or semiconductor media. More specific examples of a suitable computer-readable medium include solid-state drives or flash memory. Further, any logic or application described herein can be implemented and structured in a variety of ways. For example, one or more applications can be implemented as modules or components of a single application. Further, one or more applications described herein can be executed in shared or separate computing devices or a combination thereof. For example, a plurality of the applications described herein can execute in the same computing device, or in multiple computing devices.
It is emphasized that the above-described examples of the present disclosure are merely possible examples of implementations set forth for a clear understanding of the principles of the disclosure. Many variations and modifications can be made to the above-described embodiments without departing substantially from the spirit and principles of the disclosure. All such modifications and variations are intended to be included herein within the scope of this disclosure.
Claims
1. A system, comprising:
- at least one computing device; and
- program instructions executable in the at least one computing device that, when executed by the at least one computing device, cause the at least one computing device to:
- maintain a database that comprises a mapping of a common field name to a plurality of variable names associated with a plurality of different operating systems, the setting being previously defined as common by an administrator of an enterprise, indicating that the setting is applicable to the plurality of different operating systems, and the common field name being used to obtain the value of the setting for the plurality of variable names;
- determine that a configuration profile configured for a type of a client device has not been created in an instance in which a request for the configuration file is received from the client device of a plurality of client devices enrolled in a management service managed by the enterprise;
- in response to the configuration profile having not been created for the type of the client device, identify a particular operating system of the plurality of different operating systems installed on the client device;
- determine a format for the configuration profile based at least in part on the particular operating system;
- identify the setting that is defined as being common to the plurality of different operating systems;
- obtain the value of the setting for the particular operating system according to the common field name; and
- generate the configuration profile in accordance with the format, a particular variable name of the plurality of variable names of the setting for the particular operating system as defined in the mapping, and the particular operating system, wherein the configuration profile is generated to comprise the value of the setting for the particular operating system that is previously defined for the setting according to the common field name that is mapped to the particular variable name.
2. The system of claim 1, further comprising program instructions that, when executed, cause the at least one computing device to determine the variable name for inclusion in the configuration profile in association with the value based at least in part on a first one of the plurality of different operating systems and the mapping.
3. The system of claim 2, wherein the variable name is determined based at least in part on the particular operating system or a version of the particular operating system.
4. The system of claim 3, wherein the configuration profile comprises an extensible markup language (XML) document programmatically generated by the at least one computing device, wherein XML schema of the XML document is generated in accordance with the format.
5. The system of claim 4, wherein the XML schema comprises the variable name and the value as a key value pair.
6. The system of claim 1, wherein the setting common to the plurality of operating systems is one of: a wireless fidelity (Wi-Fi) network setting, a virtual private network (VPN) setting, and an email server setting.
7. The system of claim 1, wherein the format for the configuration profile differs between a first operating system of the plurality of different operating systems and a second operating system of the plurality of different operating systems.
8. A non-transitory computer-readable medium embodying program code executable in at least one computing device that, when executed by the at least one computing device, causes the at least one computing device to:
- maintain a database that comprises a mapping of a common field name to a plurality of variable names associated with a plurality of different operating systems, the setting being previously defined as common by an administrator of an enterprise, indicating that the setting is applicable to the plurality of different operating systems, and the common field name being used to obtain the value of the setting for the plurality of variable names;
- determine that a configuration profile configured for a type of a client device has not been created in an instance in which a request for the configuration file is received from the client device of a plurality of client devices enrolled in a management service managed by the enterprise; in response to the configuration profile having not been created for the type of the client device, identify a particular operating system of the plurality of different operating systems installed on the client device; determine a format for the configuration profile based at least in part on the particular operating system; identify the setting that is defined as being common to the plurality of different operating systems; obtain the value of the setting for the particular operating system according to the common field name; and
- generate the configuration profile in accordance with the format, a particular variable name of the plurality of variable names of the setting for the particular operating system as defined in the mapping, and the particular operating system, wherein the configuration profile is generated to comprise the value of the setting for the particular operating system that is previously defined for the setting according to the common field name that is mapped to the particular variable name.
9. The non-transitory computer-readable medium of claim 8, further comprising program code that, when executed, causes the at least one computing device to determine the variable name for inclusion in the configuration profile in association with the value based at least in part on a first one of the plurality of different operating systems and the mapping.
10. The non-transitory computer-readable medium of claim 9, wherein the particular variable name is determined based at least in part on the particular operating system or a version of the particular operating system.
11. The non-transitory computer-readable medium of claim 10, wherein the configuration profile comprises an extensible markup language (XML) document programmatically generated by the at least one computing device, wherein XML schema of the XML document is generated in accordance with the format.
12. The non-transitory computer-readable medium of claim 8, wherein the setting common to the plurality of operating systems is one of: a wireless fidelity (Wi-Fi) network setting, a virtual private network (VPN) setting, and an email server setting.
13. The non-transitory computer-readable medium of claim 8, wherein the format for the configuration profile differs between a first operating system of the plurality of different operating systems and a second operating system of the plurality of different operating systems.
14. A computer-implemented method, comprising:
- maintaining a database that comprises a mapping of a common field name to a plurality of variable names associated with a plurality of different operating systems, the setting being previously defined as common by an administrator of an enterprise, indicating that the setting is applicable to the plurality of different operating systems, and the common field name being used to obtain the value of the setting for the plurality of variable names;
- determining that a configuration profile configured for a type of a client device has not been created in an instance in which a request for the configuration file is received from the client device of a plurality of client devices enrolled in a management service managed by the enterprise;
- in response to the configuration profile having not been created for the type of the client device, identifying a particular operating system of the plurality of different operating systems installed on the client device;
- determining a format for the configuration profile based at least in part on the particular operating system;
- identifying the setting that is defined as being common to the plurality of different operating systems;
- obtaining the value of the setting for the particular operating system according to the common field name; and
- generating the configuration profile in accordance with the format, a particular variable name of the plurality of variable names of the setting for the particular operating system as defined in the mapping, and the particular operating system, wherein the configuration profile is generated to comprise the value of the setting for the particular operating system that is previously defined for the setting according to the common field name that is mapped to the particular variable name.
15. The computer-implemented method of claim 14, further comprising determining the variable name for inclusion in the configuration profile in association with the value based at least in part on a first one of the plurality of different operating systems and the mapping.
16. The computer-implemented method of claim 15, wherein the variable name is determined based at least in part on the particular operating system or a version of the particular operating system.
17. The computer-implemented method of claim 16, wherein the configuration profile comprises an extensible markup language (XML) document programmatically generated by the at least one computing device, wherein XML schema of the XML document is generated in accordance with the format.
18. The computer-implemented method of claim 17, wherein the XML schema comprises the variable name and the value as a key value pair.
19. The computer-implemented method of claim 14, wherein the setting common to the plurality of operating systems is one of: a wireless fidelity (Wi-Fi) network setting, a virtual private network (VPN) setting, and an email server setting.
20. The computer-implemented method of claim 14, wherein the format for the configuration profile differs between a first operating system of the plurality of different operating systems and a second operating system of the plurality of different operating systems.
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Type: Grant
Filed: Jul 27, 2017
Date of Patent: Sep 8, 2020
Patent Publication Number: 20180351795
Assignee: AIRWATCH LLC (Atlanta, GA)
Inventors: Adam Stephen Rykowski (Atlanta, GA), Huda Osman (Atlanta, GA), Mithila Tople (Atlanta, GA), Jacob Postema (Atlanta, GA), Jeremy Dejiacomo (Atlanta, GA), Harit Patel (Atlanta, GA), Manikandan Sigamani (Bangalore)
Primary Examiner: Brian P Cox
Application Number: 15/661,005
International Classification: H04L 12/24 (20060101); G06F 16/21 (20190101); G06Q 10/10 (20120101); H04L 29/08 (20060101); G06F 16/27 (20190101); G06F 16/83 (20190101); G06F 16/2457 (20190101); H04W 24/02 (20090101); G06F 40/174 (20200101); H04W 12/06 (20090101); H04L 29/06 (20060101); G06F 9/451 (20180101); H04L 12/46 (20060101); H04W 84/12 (20090101);